JP4226899B2 - Searching and selecting access points - Google Patents

Description

[0001]
The present application is 35 U.S. Pat. S. C. Of US provisional application No. 60 / 247,057 filed on Nov. 13, 2000 under section 119 (e) of No. All are explicitly incorporated here.
[0002]
The present invention relates generally to methods and systems that support complex transport technologies. In particular, the present invention relates to a method and system for searching and selecting access points for communication devices within a heterogeneous access environment.
[0003]
To communicate with the other party, a communication device, a communication network, and an access point to the communication network are required. In traditional communication networks, there was only a way to communicate with the network only when any given point was free. FIG. 1A illustrates a communication device, an access point, and a communication network. In FIG. 1A, a landline telephone 105 is a communication device connected to a public telephone communication network 115 via a wall jack 110. In FIG. 1A, a wall jack 110 is illustrated as an access point to the communication network, but the wall jack 110 is a telephone company that connects the building and the PSTN 115 in the building where the telephone 105 is installed. It may be a junction box for trunk lines.
[0004]
Even if there are several access points that can be used, conventionally, a communication device is fixed to only a single access mechanism. That is, in a conventional communication network, for example, an access network such as a transmission technique (a technique for transporting information between nodes), a transmission network, and a service provider network are connected together. For example, in a public switched telephone network (PSTN) system, a telephone is fixed to the PSTN network by a fixed access line using, for example, a twisted pair wire. Similarly, GSM mobile telephones have traditionally been connected to a wireless communication network through a GSM air interface.
[0005]
With the progress of development, transmission technology has been separated from access technology. The same applies to Internet technology, where the separation of applications and access transport (included in the “link” layer) is gradually being applied to telephony systems. For example, in an IP-based communication network, a multi-layered technique can be realized, and by this technique, an application that realizes a user service such as “telephone” is separated from a transmission technology including access. It has become. In addition, it is now possible for communication devices to support several access technologies. For example, a communication device can be connected to one or more networks using several access technologies at the same time, such as cellular, Bluetooth, or HyperLan. Such short-range wireless technology can also be used.
[0006]
FIG. 1B illustrates another communication device, access point, and communication network. In FIG. 1B, a communication device 120 in the form of a mobile radiotelephone is shown. Mobile radiotelephone 120 typically connects to a mobile radio network via a remote access point. For example, a mobile radiotelephone can be connected to any of the three access points indicated by dashed line 160, which includes a base station 125, a satellite antenna 126, and a health station device 127. For the sake of brevity, it is assumed that the mobile radiotelephone 120 is connected to the mobile radio network via a base station that is a remote access point 125. The base station 125 is connected to a communication transmission network 130 such as a GSM network, a wideband CDMA (WCDMA) network, a GSM2000 network, a PDC network, or a D-AMPS network. The entire area shown as area 150 in FIG. 1B illustrates the operating range of the long distance access point 125.
[0007]
Also, as illustrated in FIG. 1B, a short-range access point 135 is connected to the other communication transmission network. By connecting to the network through several access points, individuals or devices can communicate with other people and other devices, such as web servers. Dashed line 145 illustrates the operating range of short range access point 135. It will be appreciated that the illustrated network can include one or more transmission networks between a transmission device on the sending side and a transmission device on the receiving side. If more than one transmission network is involved, a gateway device may be required between the transmission networks.
[0008]
As shown in FIG. 1B, the mobile radiotelephone 120 typically performs communication with the network 130 using a base station 125 as an access point. However, the mobile radiotelephone may have the capability to communicate with the network 140 using the short range access point 135. The mobile radiotelephone has two different access points, as indicated by the dashed line 145 that encloses the mobile radiotelephone 120 and the short-range access point 135 and the area 150 that encloses the base station 125 and the mobile radiotelephone 120. That is, it may be located within the operational range of both the short range access point 135 and the long range access point 135. However, at present, no mechanism is prepared to assist the user of the communication device when selecting an access technology. For example, a user of a mobile radiotelephone 120 may use an access technology to use, ie, a GSM air interface with a long-range access point 125 or a Hiperlan air interface with a short-range access point 135, for example. Must be selected manually. In particular, how to efficiently use different access technologies and information that helps how to position the communication device to achieve the best orientation for the access point There is currently no mechanism for providing information to the user or communication device to help determine this.
[0009]
Therefore, for each point in space given in detail up to a few meters, information about the possibility of effective access is collected and the mapping process is performed for at least one position of the user or communication device It is desirable to do. In addition, it is desirable to provide analytical processing, such as how to map access point options to application requirements on the transport network, taking into account user preferences and issues such as cost. right. It is also desirable to distribute and present information to applications and users, including recommendation information about user actions.
[0010]
Overview
In accordance with exemplary embodiments of the present invention, the above disadvantages and problems in conventional communication systems that support one or more access technologies are solved.
[0011]
Depending on the geographical location of the communication device, and sometimes the scale of the meter, the parts of a few meters, and the time, the palette of available access technologies is changed. Since the communication device is moved by the user, the position of the communication device is affected by the user, for example, the communication device moves away from or approaches the access point. Also, the position of the communication device is affected by the relative and spatial orientation between the communication devices, more specifically, the spatial orientation between the antenna of the communication device and the antenna of the access point.
[0012]
For example, a user may have a communication device having a function of connecting to a network using HiperLan (Hyper Run), Wideband Code Division Multiple Access (W-CDMA), or both simultaneously. Here, it is assumed that the user exists just outside the range of HiperLan. When there is an incoming call, the user is informed that the call contains both audio and video components. For wide bandwidth media such as video, using W-CDMA access technology would result in very high communication charges. For this special type of call, the user may allow payment of charges via cellular access technology. It may also be considered that such a call can be communicated via the HiperLan network to provide high capacity and reduce communication costs. However, the user may not have information on where the closest access point that can use HiperLan is. Also, even if the user is aware of nearby access points, it can evaluate user preferences and service / application requirements such as those required to determine the best access point. It may not be possible. Therefore, at present, users are not able to quickly and accurately obtain information related to access points that are unique and suitable for the individual in accordance with user preferences and wishes.
[0013]
In accordance with one embodiment of the present invention, a system and method for providing a communication device with information regarding available access points related to the location of the communication device and the combined conditions of the communication device is disclosed. . Compound conditions are based on user preferences and service / application conditions. The available access points are mapped using the location of the communication device and the combined conditions. This mapping process and other information associated with the access point can be used to determine and select the best access point and other access points for the communication device. This information is analyzed and presented to the user as recommendation information and direction information.
[0014]
According to an exemplary aspect of the invention, the available access point mapping process is performed in relation to the position of the communication device. Once the spatial relationship between the available access points and the communication device is determined, information including the location and the spatial relationship between the access points is provided to the user.
[0015]
According to another aspect of the invention, the position information and the conditions of the first communication device are received by the second communication device, and the position information and the condition information are transferred to the access network. The second communication device receives information related to the access point from the access network and forwards the received information to the first communication device.
[0016]
According to yet another aspect of the invention, the method and system operate in a network that supports heterogeneous transmission environments for multitasking devices. The information provided regarding available access points may be a compromise between the desired overlapping coverage areas for each of the access network and complex requirements. The best transmission access techniques are available to allow data to be sent simultaneously on each transport connection.
[0017]
Detailed description
In the following description, for purposes of explanation and not limitation, specific details are used to provide a thorough understanding of the present invention. However, it will be apparent to those skilled in the art that the present invention may be practiced in other embodiments that depart from these details. In other instances, detailed descriptions of well-known methods, devices, signal formats, and circuits are omitted so as not to obscure the understanding of the description of the present invention.
[0018]
FIG. 2 illustrates an exemplary method for obtaining information regarding available access points in accordance with the present invention. First, the process is started by some trigger event (step 200). This trigger event may be a start by the user's start, an automatic start at various intervals, or when judged necessary by the central information processing system. After the process is initiated, the position or location selection information where the service is to be performed is provided to the access network (step 210). This location information can be acquired by at least one of the overall communication network system, the communication device, and the user. For example, if the communication device is equipped with a global positioning system (GPS) satellite receiver, the communication device can use the received signal from the GPS satellite to determine its position. Similarly, the communication device can determine the position of the communication device using a known triangulation technique such as measuring signals transmitted from two or more base stations. Similarly, the access network can provide position information using known triangulation techniques. Alternatively, the exact location or general location of the communication device may be provided by the user, for example by selecting a point or area on the map. In addition, the location information of the communication device provided may be different from the user's actual location, for example, when the user wishes to search for information on transmission connections available in the future profitable area Etc. will be different from the actual position. Further, according to an exemplary embodiment, the location information provided by the user may be used to determine the location of the communication device, combined with one or more other automatic positioning techniques such as triangulation, for example. May be used. For example, in the target area, the user can confirm the target area using another technique capable of accurately positioning the communication device.
[0019]
After the position or service area is determined, access information about network services available in or around the area of interest is determined (step 220). In an exemplary embodiment of the invention, the communication device collects access information from each access point option available from the communication device. For example, referring again to FIG. 1B, various access technologies that can determine whether the communication device 120 is located within the radio range of the short-range access point 135 or the radio range of the long-range access point 125. , The communication device 120 can scan for radio frequencies. Alternatively or optionally, each access network may send and report information about available access points corresponding to each access network to a central point. This information may then be used by the central point in determining available access points in a geographical area designated by the user or in an area near the communication device. For example, the long range access point 125 may gather information about available short range access points 135. The long-range access point 125 can similarly determine and collect information about the desired position and complex requirements for the communication device 120, and further allows the communication device 120 to access short-range access points. It can also be determined whether the point 135 is available.
[0020]
Next, a composite request condition of the communication device is acquired (step 230). The present invention allows a user to specify various preferences for a desired access point. These user preferences may include cost, speed, quality, and security associated with the access point, but the invention is not so limited. Similarly, the system reports to the service provided to the user and the application involved in providing the service by establishing service / application conditions. Not only the general profile of the communication device (ie general information about the user), but also the user preferences are filtered for service / application conditions to obtain multiple requirements for the communication device. These complex requirements may include information on the capabilities of the communication device and the capabilities of other devices in the user's “personal area network (PAN)” and the results of consideration. Good. It will be appreciated that a PAN may include one or more communication devices that are associated with a particular user. In addition, complex requirements may be compared with network capabilities to determine similarities and differences between the two conditions. In the event of a mismatch or inconsistency from the viewpoint of network capability, a process for determining a compromise between complex requirements may be employed in order to prevent the system from becoming inoperable.
[0021]
The position information and the access information are mapped to complex request conditions (step 240), and the mapped information is acquired. The information mapping process can be performed at a communication device, a device in the PAN, a network, or the central point described above. The mapping process is also similar to the connection to the access point, such as the environment in which the user is located, for example, whether the user is in a conference, in a vehicle, or on foot. You may consider the physical restrictions. The result of the mapping analysis process can also be used to identify or select the best access point (step 250). Access point selection is a function of the mapped information. It is important to note that the selection process is just one function of the mapping information and is not limited to the best recommended access point (as described below). For example, the mapped information may be a subset of all available access points, or may be a selection of other access points not included in this subset.
[0022]
The result of the mapping process and the result of the selection process are presented to the user along with the recommended action and possible options (step 260). This recommendation is based on the result of the mapping process (step 240) and / or the best access point (step 250). The recommendation process and the alternative procedure (step 260) can be executed in a central information processing unit existing in any one of the communication device, the access network, and the communication network system.
[0023]
The user selects an option and acts according to the instruction (instruction). If the user wants to establish a communication line that includes, for example, voice and video, he walks 25 meters towards the northeast, where an access point to the HiperLan network is provided. Can be recommended. Actions to be performed by the user may be performed automatically. For example, the instruction to the user is a simple (orientation) orientation in which the antenna of the communication device is moved by either mechanical or electrical beam manipulation means to direct the device to a stronger signal. Also good. The orientation of the antenna is controlled by a central information processing unit associated with at least one of a mechanical device or an electrical device for moving the antenna or manipulating the direction of the antenna beam in a desired manner. The recommendation information and possible options may be stored and stored in a network, a communication device, or a central point for future reference.
[0024]
According to an exemplary embodiment, the various steps in FIG. 2 may be shared or shared between the user (or PAN) and the network system. For example, according to one embodiment, using a PAN (or personal communication device), the process begins (step 200), establishes the area where access information is needed (step 210), and interests. To obtain access information relating to access points that can be used in the target area (step 220), obtain complex request conditions for the communication device (step 230), and determine the position and access information. Map on complex requirements (step 240), identify the best access point (step 250), evaluate options, and send recommendation information about user actions (step 260). According to another embodiment of the present invention, the network starts the process (step 200), determines the access area of interest (step 210), and access information about the access point. Obtaining step (step 220), establishing a composite request condition for the communication device (step 230), mapping the position and access information on the composite request condition (step 240), The ability to perform the step of identifying the best access point (step 250) and the step of evaluating options and providing recommendation information (step 260) may be provided. According to still another embodiment of the present invention, the process may execute the process by sharing the process between the user and the network. For example, the network maps position and access information to complex requirements, identifies various best access points to access network services (steps 240, 250), and others on the user side All the necessary steps may be performed. It will be appreciated that the above-described steps are not limited to the present invention being performed strictly between the user and the network and performing the process strictly. In addition, each referenced step can be executed by sharing the processing among any number of devices and any number of nodes in the communication network system.
[0025]
FIG. 3A is a diagram illustrating a signaling state between a communication apparatus related to a user 320 and a network 330 in an IP-based environment according to an embodiment of the present invention. First, the communication device initiates a query 340 to the network 330 due to some event 310. This is a query to query the available access point options based on the range of communication devices and the desired position. For example, the trigger event 310 is started by a periodic information update process or an incoming call. Query 340 is not required, for example, requesting information about available access points at the location where the user is located, or requesting transmission technology in any geographic area. Can be specified by the user.
[0026]
The network 330 returns response information along with information on available access technologies and transmission technologies or access points in the vicinity of the requested position. Response information 350 indicates access point choices or access point possibilities, and the capabilities of each access point, for example, the network may provide information on relative positions and three alternative access points. Information about each capability of X, Y and Z can be relayed. These three alternative access points are merely exemplary, and the network can relay information about a greater or lesser number of access points, which should be understood. .
[0027]
Next, the requested position and access information are mapped to the complex request conditions of the communication device. The user 320 or communication system may perform an analysis process 355 for access options that may be desirable, send a query 360 to the specific access point, and request additional information for the specific access point X. it can. The network 330 sends and provides an access response 370 that includes information indicating the geographical location of the access point and the user's direction with respect to the access point. As described further below, if the user attempts to access multiple access points to perform split communications over different transmission technologies, the access response 370 may include multiple access coverages. It will be about the “best” location that provides the access point corresponding to the overlapping area. The process described above may include further steps, for example, (a) evaluating information related to user preferences determined for each session, such as whether the user is in a car or in a meeting. And (b) transmitting proposal information to the user, and (c) responding to the user's selection or action 380. Note that the signaling shown in FIG. 3A is merely an example, and when a special signaling process is used, it may be appropriately changed depending on where the process is executed.
[0028]
The following example further illustrates the process described above. Consider short-distance wireless access (coverage <10 meters) at about 50 meters away, but consider a situation where access to HiperLan is available at a location about 2 km away from the user. Users can access information about access choices that are within walking distance by the user's communication device, network, central point, or central node in the network (eg, a centralized central connection between multiple access networks). You may be asked if you want to get more. If desired, more detailed information about a certain access can be extracted from the network, for example, the spatial relationship between the antenna of the communication device and the antenna of the access point, communication Detailed recommendation information on how to change the position and spatial orientation of communication devices and related communication devices, such as the spatial relationship between the infrared communication device of the terminal and the infrared communication device of the access point Can be provided to the user. The alignment of the antenna with respect to the communication device and the access point may be adjusted manually by the user or automatically.
[0029]
Users can benefit by customizing and optimizing the capabilities (functions) of each session for individuals. The impact the user gets on each session can be used to obtain the required bandwidth, lower costs, etc. In addition, the user may benefit from the embodiment of the recommendation process of the present invention by increasing the likelihood of a successful communication session. In some cases, network owners can benefit from increased traffic due to increased user availability beyond the recommended services, and from user satisfaction with the services provided. Can also benefit. For example, FIG. 3B shows a case where user “A” desires the lowest cost and high security (128-bit encryption), but the quality and speed of the transmission connection are not questioned. On the other hand, the user “B” desires speed and quality exceeding 128 kbps, but does not care about cost and connection security. User preferences may be universal for a particular session or unique for a particular session. Moreover, the information related to the user's preference may be input by the user or stored in a communication device or a network. These individual preferences are taken into account when evaluating the best alternative transmission technology or access point. Therefore, users benefit from optimized and personalized sessions, and service providers benefit from customer satisfaction and the resulting increased service fees.
[0030]
The above list of preferences is merely illustrative of likely user preferences and is not absolute. In addition, it should be understood that there are various variations and uses for the use of the operating mechanism described above. For example, during different sessions, different combinations of preferences and establishment of hierarchy may be desired. For example, the user may make cost a high priority, except for sessions when the application is calling video data. During these video sessions, the user may replace speed and quality as high priority instead of cost. In addition, the user may wish to specify user preferences throughout the PAN, depending on the devices used during the session simultaneously or sequentially in a multimedia environment. For example, when using a telephone with a video and sound multimedia player, the user can specify that quality and speed are of greatest concern. Alternatively, when a mobile phone is used simultaneously with a paging unit, the user can specify that cost should be considered a top priority.
[0031]
According to another embodiment, the device used to obtain information about available access areas and points must be used to actually run the application at one of the proposed access points. It is not a must. For example, a user may have several devices within his PAN that can access different transmission technologies inside and outside the PAN. These devices can be used simultaneously or cooperatively to obtain information about positions, available access points, mappings, recommendations, etc.
[0032]
FIG. 4 shows an embodiment in which a certain communication device transfers access information related to the position and conditions of the second communication device to the second communication device. Therefore, FIG. 4 shows a case where the user 400 has a laptop 405 as a first communication device and a mobile radio telephone 410 as a second communication device. In area 415, user 400 may wish to determine whether the laptop can access HiperLan. Assume that the laptop 405 in this example is limited to short-range access technologies such as infrared and Bluetooth. Thus, the laptop 405 provides its location in the area 420 to the radiotelephone 410 using near field access technology. The radiotelephone 410 communicates with the network using a long distance technology such as GSM, for example, access to the network access connection for the laptop 405 based on the location, capabilities, and user preferences of the laptop 405. Extract information. The wireless telephone transmits this access information to the laptop 405 using a short-range communication means. The laptop 405 uses this information to select an access point 425. User 400 then proceeds to access point 425 and / or directs laptop 405 in a direction with respect to the access point, or allows laptop 405 and access 425 to communicate. It is possible to execute any other action necessary for this purpose. The laptop 405 and the radiotelephone 410 can work together to perform an evaluation process for information exchanged between the access network and the mobile radiotelephone. For example, the cellular telephone 410 can simply operate as a relay device between a laptop and an access network, thereby allowing the laptop 405 to perform mapping and evaluation processing for the best access point. It becomes possible.
[0033]
Furthermore, the present invention can also be used to provide information about access points associated with the future location of the communication device. For example, if a user of a communication device is planning to access the HiperLan network within a few days while waiting at an airport, he may wish to locate that access point. The user can cause the communication device to send a request for this information to the network. This information includes information for presenting to the network and information on the location where the communication device will be located in the airport. The network may retrieve information about the airport access point and provide this information to the communication device. The communication device, or network, can optionally store this information for later use.
[0034]
Furthermore, the exemplary embodiments of the present invention can also be used in determining the “best” access point or area that supports heterogeneous communication transmission environments. For example, in the case of simultaneously communicating audio and video data, it is cheaper for voice applications and is transmitted via a limited bandwidth access transport, and a high speed and wide bandwidth connection for the video part. You may send via. In accordance with the present invention, the “best” access point or area can be located where it can communicate with two or more access points for disparate applications.
[0035]
FIG. 5 illustrates how the present invention determines the “best” access area for a user using multiple access technology. Each of the access network 1 and the access network 2 has three physical access points 504, 505, 506 and 501, 502, 503. Each physical access point is provided with a corresponding coverage area 504A, 505A, 506A, 501A, 502A, and 503A. User 500 is located in coverage area 502A. An access network that supports and can use such simultaneous use when simultaneously using one or more multimedia communication devices that require transport connections to both network 1 and network 2 The user requests information about. Using any of the processes described above, the location and composite requirements for the device are determined, followed by the location and composite requirements according to the available access points in each network. Mapping process is performed. This information is further analyzed to determine whether the overlap area of coverage areas 502A and 503A provides the best access location 510 that satisfies all user preferences and requirements during this session. decide. This provides recommendation information for the best access area with guidance information for providing spatial orientation for the communication device.
[0036]
Although the present invention has been described in the context of heterogeneous environments, those skilled in the art will appreciate that the above-described systems and methods are equally applicable in similar environments.
[0037]
It will be understood that the use of the term communication device above is intended to include a wide range of devices and not primarily to include only devices intended for communication. For example, the communication device may be a personal digital assistant (PDA), a laptop computer, a mobile phone, or any device having a function capable of transmitting / receiving information or a function capable of communicating with other devices.
[0038]
The present invention has been described in terms of several exemplary embodiments. However, those skilled in the art will clearly understand that the present invention can be realized not only in the above-described embodiments but also in other specific forms. These can be implemented without departing from the technical idea of the present invention. These exemplary embodiments are merely used for illustrative purposes and should not be considered limiting in any way. The scope of the invention is determined by the appended claims rather than the foregoing description, and all modifications and equivalents are intended to be within the protection scope of the patent.
[Brief description of the drawings]
Other objects and advantages of the present invention will become apparent to those of ordinary skill in the art upon reading the detailed description of the preferred embodiment in conjunction with the accompanying drawings such as reference numerals and like components. Let's go.
FIG. 1A
1A and 1B are diagrams illustrating a communication device, an access point, and a communication network.
FIG. 2 is a diagram illustrating a method for obtaining information related to a best access point based on user preferences, according to an exemplary embodiment of the present invention.
FIG. 3A is a diagram illustrating signaling between a communication device associated with a user and a network in an IP-based environment, according to an exemplary embodiment of the present invention.
FIG. 3B is a diagram illustrating examples of common user preferences and how these preferences differ depending on the user, according to an exemplary embodiment of the present invention.
FIG. 4 is a diagram illustrating an exemplary embodiment in which one communication device transmits access information related to location and request conditions for a second communication device to a second communication device. is there.
FIG. 5 is an illustration of an example implementation for determining the best access, transmission, and area in a heterogeneous environment.

Claims (31)

A method for evaluating and selecting a network access point for a communication device, comprising:
Determining a geographical position of the communication device;
Determining an available access point associated with the communication device and a geographical position for each available access point;
Obtaining information related to the quality of service available through each access point;
Determining composite requirements for the communication device, including service and application requirements for the proposed communication and user preferences for quality of service;
Information related to the quality of service available through each access point is mapped to a geographical position for each access point and a complex requirement for the communication device Obtaining information,
Evaluating an available access point based on the best match of the mapped information;
Look including a step of presenting the evaluation has been the access point to the user,
Presenting an access point to the user includes:
Presenting the recommended best access point and guidance information that enables the user to access the best access point
Including
The guidance information is
Information indicating how to change the position of the communication device and the communication device included in the communication device so that the communication device can communicate with the best access point
Including
The available access points include not only currently available access points, but also access points that can be used in the future by changing the position of the communication device and the communication device included in the communication device. A method characterized in that it is also included . The mapping process includes determining a spatial relationship between an antenna of the communication device and an antenna of the available access point;
Information related to the quality of service available through each access point includes information related to the spatial relationship and position between the antenna of the available access point and the antenna of the communication device. The method according to claim 1.   The method of claim 2, wherein the mapping process is performed in the communication device.   The method of claim 2, wherein the communication device is located in a personal area network and the mapping process is performed by a second device in the personal area network.   The method of claim 2, wherein the mapping process is performed by a node in an access network.   4. The method of claim 3, wherein a node in an access system provides information related to a spatial relationship and position between the communication device and the access point.   7. The method of claim 6, wherein in a network system, the node is a common node for at least two access networks.   The method according to claim 1, further comprising: obtaining selection information of a desired access point from the user; and presenting guidance information that enables the user to access the selected access point. the method of.   Obtaining information related to quality of service available through each access point further comprises obtaining information related to cost and security available through each access point, the communication The method according to claim 1 or 2, wherein the complex requirements for a device are further based on user preferences related to cost and security of the communication device. Determining the capability of at least one access network within the network system;
Comparing the complex requirements of the communication device with the capabilities of the access network;
Selecting requirements common to both the capabilities of the access network and the complex requirements of the communication device;
Determining inconsistent requirements between the access network capabilities and the complex requirements;
The method of claim 1 or 2, further comprising the step of determining a compromise between the mismatched requirements once the mismatched requirements between the access network capability and the complex requirements are determined. The method described.   The method according to claim 1 or 2, wherein the complex requirement for the communication device is further based on a user preference for a second communication device in a personal area network.   3. The method according to claim 1 or 2, wherein the user preferences include preferences relating to trust between the communication device and the access point, reliability of the connection, and data transfer rate.   The method according to claim 1 or 2, further comprising the step of automatically selecting the best access point without requiring user interaction. Obtaining information related to the quality of service available through each access point;
Receiving the position and the complex requirements for the communication device by a second communication device in a personal area network;
Supplying the position and the complex request condition to a network by the second communication device;
Receiving by the second communication device information related to the quality of service available through each access point from the network;
The method according to claim 1 or 2, wherein the second communication device supplies the communication device with information related to the quality of service available through each access point.   The step of determining a geographical position of the communication device further includes receiving a position input from the user, wherein the input position is different from a current position of the communication device. Item 3. The method according to Item 1 or 2.   The step of determining a geographical position of the communication device further includes accessing information on a predetermined position of the communication device, wherein the predetermined position is different from a current position of the communication device. The method according to claim 1 or 2, wherein A system for evaluating and selecting a network access point for a communication device,
A communication device comprising means for enabling a user to communicate with a communication network using a first access technology and a second access technology;
Receiving information on the geographical position of the communication device and receiving complex requirements for the communication device including service and application requirements for the proposed communication and user preferences for quality of service; Including network nodes,
The network node is
Related to the quality of service provided by each available access point and the respective geographical position of the available access points for the network using the first access technology and the second access technology Means for obtaining access point information to be
Means for comparing the access point information with the requirements of the communication device and complex requirements, determining the best match, and evaluating available access points;
Look including a means for presenting information relating to the evaluated access point to the communication device,
Information related to the evaluated access point is:
Information indicating the best recommended access point, and
Guidance information enabling the user to access the best access point;
Including
The available access points include not only currently available access points, but also access points that can be used in the future by changing the position of the communication device and the communication device included in the communication device. Is also included in the system. The communication device includes an antenna for a communication device, each access point includes an antenna for an access point, and the node includes an antenna for the communication device and an antenna for each access point. 18. The information of claim 17 , comprising means for determining alignment, wherein the information related to the access point includes information related to alignment of the antenna for the communication device and the antenna for each access point. System. The means for obtaining the access point information further obtains information related to the cost and security available through each access point, and the complex request condition for the communication device further includes 19. A system according to claim 17 or 18 , wherein the system is based on user preferences related to cost and security of the communication device. A selection device for evaluating and selecting a network access point for a communication device, comprising:
Determining the geographical position of the communication device;
Determining an available access point associated with the communication device and a geographical position for each access point;
Obtaining information relating to the quality of service available through each said access point;
Determining composite requirements for the communication device, including service and application requirements for the proposed communication and user preferences for quality of service;
Information related to the quality of service available through each access point is obtained by mapping the geographical position for each access point and the complex requirements for the communication device. Acquired,
Evaluating available access points based on the most matched information obtained from the mapping process ,
Providing the user with guidance information that enables access to the selected access point along with information on the best recommended access point
Is configured as
The available access points include not only currently available access points, but also access points that can be used in the future by changing the position of the communication device and the communication device included in the communication device. Is also included . The selection device maps information related to the quality of service available through each access point to a geographical position for each access point and a complex requirement for the communication device. The selection device according to claim 20 , wherein the selection device is configured as follows. The mapping process includes a process of determining a spatial relationship between an antenna of the communication device and an antenna of the available access point;
Information related to the quality of service available through each access point includes information related to the spatial relationship and position between the antenna of the available access point and the antenna of the communication device. The selection device according to claim 21 , wherein: The selection device is provided in the communication device, the communication device is located in a personal area network, and information obtained by the mapping process is stored in a second area in the personal area network. The selection device according to claim 20 or 22 , wherein the selection device is obtained from a device. 23. The selection apparatus according to claim 20, wherein the information obtained by the mapping process is acquired from a node in an access network. 23. The selection apparatus according to claim 22 , wherein information related to a spatial relationship and a position between the communication apparatus and the access point is obtained from a node in an access system. 23. The selection device according to claim 20 or 22 , wherein the selection device is further configured to present the evaluated access point to the user. Said selection device further selection device according to claim 26, characterized in that it is configured to acquire selection information of the desired access point from the user. The selection device is configured to acquire information related to cost and security available through each access point when acquiring information related to quality of service available through each access point. 23. The selection device according to claim 20 or 22 , wherein the complex requirement for the communication device is further based on user preferences related to cost and security of the communication device. The selection device further includes:
Determine the capability of at least one access network in the network system;
Comparing the complex requirements of the communication device with the capabilities of the access network;
Selecting a requirement common to both the capabilities of the access network and the complex requirements of the communication device;
Determining inconsistent requirements between the access network capabilities and the complex requirements;
When a mismatch requirement between the access network capability and the complex requirement is determined, the method is configured to perform a step of determining a compromise between the mismatch requirement. The selection device according to claim 20 or 22 . 23. The preference according to claim 20 or 22 , wherein the preference of the user includes a preference related to reliability between the communication device and the access point, reliability of the connection, and data transfer rate. Selection device. 23. A selection device according to claim 20 or 22 , wherein the selection device is configured to automatically select the best access point without requiring user interaction.

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